• 使用linux系统做路由转发


    使用linux系统(PC机)做路由转发

    关键字:linux,Fedora,route,iptables,ip_forward

      最近做网络实验,在实验过程中需要用到linux的转发功能,但是遇到一些问题,在请教了linux网络技术的网友后终于把它解决了,解决了之后我开始总结之前失败的原因,并将历程写成博文,供以后遇到这类问题的各位朋友参考借鉴。

      1、网络拓扑

      网络拓扑如下所示,我们在这里用到了三台机子做实验,分别是①、④、⑦号机,使用①号机ping⑦号机,④号机作为路由转发。

      

      2、错误的路由配置

      首先我们使用如下的配置方法,配置这三台机子的路由表:

      1)在①号机种配置如下,让目的网段是10.0.4.0/24的从eth1端口出去

    route  add -net 10.0.4.0/24 dev eth1

      在①号机的查看路由表输入如下命令:

    route -n

      ①号机的路由表的结果如下:

      2)在⑦号机使用同样方法配置路由,结果如下:

      3)在4号机配置路由转发功能,即将/etc/sysctl.conf文件里面的net.ipv4.ip_forward的值置1:

      4)所有的配置已经完成,我们在①号机ping④号机

    ping  10.0.4.3

      结果如下,即ping 不通:

    PING 10.0.4.3 (10.0.4.3) 56(84) bytes of data.
    From 10.0.1.3 icmp_seq=2 Destination Host Unreachable
    From 10.0.1.3 icmp_seq=3 Destination Host Unreachable
    From 10.0.1.3 icmp_seq=4 Destination Host Unreachable
    From 10.0.1.3 icmp_seq=6 Destination Host Unreachable
    From 10.0.1.3 icmp_seq=7 Destination Host Unreachable
    From 10.0.1.3 icmp_seq=8 Destination Host Unreachable

      这里为了方便研究,把①号机的eth1配置放出来

    eth1      Link encap:Ethernet  HWaddr 00:16:EC:AF:CB:CB  
              inet addr:10.0.1.3  Bcast:10.255.255.255  Mask:255.255.255.0
              inet6 addr: fe80::216:ecff:feaf:cbcb/64 Scope:Link
              UP BROADCAST RUNNING MULTICAST  MTU:1500  Metric:1
              RX packets:4564 errors:0 dropped:0 overruns:0 frame:0
              TX packets:6688 errors:0 dropped:0 overruns:0 carrier:0
              collisions:0 txqueuelen:1000 
              RX bytes:459463 (448.6 KiB)  TX bytes:546633 (533.8 KiB)
              Interrupt:23 Base address:0x6000 

      在①号机ping 的同时,我在④号机抓eth1包,结果如下:

    [root@h4~]# tcpdump -i eth1 -enn
    tcpdump: verbose output suppressed, use -v or -vv for full protocol decode
    listening on eth1, link-type EN10MB (Ethernet), capture size 65535 bytes
    15:26:44.388614 00:16:ec:af:cb:cb > ff:ff:ff:ff:ff:ff, ethertype ARP (0x0806), length 60: Request who-has 10.0.4.3 tell 10.0.1.3, length 46
    15:26:45.391014 00:16:ec:af:cb:cb > ff:ff:ff:ff:ff:ff, ethertype ARP (0x0806), length 60: Request who-has 10.0.4.3 tell 10.0.1.3, length 46
    15:26:47.387821 00:16:ec:af:cb:cb > ff:ff:ff:ff:ff:ff, ethertype ARP (0x0806), length 60: Request who-has 10.0.4.3 tell 10.0.1.3, length 46
    15:26:48.391220 00:16:ec:af:cb:cb > ff:ff:ff:ff:ff:ff, ethertype ARP (0x0806), length 60: Request who-has 10.0.4.3 tell 10.0.1.3, length 46
    15:26:49.392621 00:16:ec:af:cb:cb > ff:ff:ff:ff:ff:ff, ethertype ARP (0x0806), length 60: Request who-has 10.0.4.3 tell 10.0.1.3, length 46

      可见①号一直在寻找配有10.0.4.3 IP的机子的mac地址,即一直在发arp包。但是路由器(④号机)默认是不转发arp报文的,所有①号机永远也ping不通⑦号机。

      3、正确的配置

      在①号机种配置路由,命令如下:

    route add -net 10.0.4.0/24 gw 10.0.1.2

      这时候①号机的路由表:

    [root@h1 ~]# 
    [root@h1 ~]# route -n
    Kernel IP routing table
    Destination     Gateway         Genmask         Flags Metric Ref    Use Iface
    10.0.4.0        10.0.1.2        255.255.255.0   UG    0      0        0 eth1
    10.0.5.0        0.0.0.0         255.255.255.0   U     0      0        0 eth2
    10.0.1.0        0.0.0.0         255.255.255.0   U     0      0        0 eth1
    192.168.99.0    0.0.0.0         255.255.255.0   U     1      0        0 eth0
    0.0.0.0         192.168.99.1    0.0.0.0         UG    0      0        0 eth0

      同样的方法配置⑦号机的路由表

      

    root@h7:~# route -n
    内核 IP 路由表
    目标            网关            子网掩码        标志  跃点   引用  使用 接口
    0.0.0.0         192.168.99.1    0.0.0.0         UG    0      0        0 eth0
    10.0.1.0        10.0.4.2        255.255.255.0   UG    0      0        0 eth1
    10.0.4.0        0.0.0.0         255.255.255.0   U     1      0        0 eth1
    10.0.7.0        0.0.0.0         255.255.255.0   U     1      0        0 eth2
    192.168.99.0    0.0.0.0         255.255.255.0   U     1      0        0 eth0

      下面再进行ping测试,在①号机ping⑦号机,结果能够ping通。在这里我们问了方便分析,首先列出各网卡的MAC地址

    ①号机 eth1:HWaddr 00:16:EC:AF:CB:CB
    ④号机 eth1:HWaddr 40:61:86:32:8F:0B 
    ④号机 eth4:HWaddr 40:61:86:32:8F:0E
    ⑦号机 eth1:HWaddr 00:25:90:93:40:79

      ④号机eth1抓包如下:

    [root@h4 ~]# tcpdump -i eth1 -enn
    tcpdump: verbose output suppressed, use -v or -vv for full protocol decode
    listening on eth1, link-type EN10MB (Ethernet), capture size 65535 bytes
    16:02:26.809445 00:16:ec:af:cb:cb > 40:61:86:32:8f:0b, ethertype IPv4 (0x0800), length 98: 10.0.1.3 > 10.0.4.3: ICMP echo request, id 8079, seq 1, length 64
    16:02:26.810723 40:61:86:32:8f:0b > 00:16:ec:af:cb:cb, ethertype IPv4 (0x0800), length 98: 10.0.4.3 > 10.0.1.3: ICMP echo reply, id 8079, seq 1, length 64
    16:02:27.811847 00:16:ec:af:cb:cb > 40:61:86:32:8f:0b, ethertype IPv4 (0x0800), length 98: 10.0.1.3 > 10.0.4.3: ICMP echo request, id 8079, seq 2, length 64
    16:02:27.813136 40:61:86:32:8f:0b > 00:16:ec:af:cb:cb, ethertype IPv4 (0x0800), length 98: 10.0.4.3 > 10.0.1.3: ICMP echo reply, id 8079, seq 2, length 64
    16:02:28.813248 00:16:ec:af:cb:cb > 40:61:86:32:8f:0b, ethertype IPv4 (0x0800), length 98: 10.0.1.3 > 10.0.4.3: ICMP echo request, id 8079, seq 3, length 64
    16:02:28.814551 40:61:86:32:8f:0b > 00:16:ec:af:cb:cb, ethertype IPv4 (0x0800), length 98: 10.0.4.3 > 10.0.1.3: ICMP echo reply, id 8079, seq 3, length 64
    16:02:29.814648 00:16:ec:af:cb:cb > 40:61:86:32:8f:0b, ethertype IPv4 (0x0800), length 98: 10.0.1.3 > 10.0.4.3: ICMP echo request, id 8079, seq 4, length 64

      ④号机eth4抓包如下:

    root@h4 ~]# tcpdump -i eth4 -enn
    tcpdump: verbose output suppressed, use -v or -vv for full protocol decode
    listening on eth4, link-type EN10MB (Ethernet), capture size 65535 bytes
    16:02:26.809460 40:61:86:32:8f:0e > 00:25:90:93:40:79, ethertype IPv4 (0x0800), length 98: 10.0.1.3 > 10.0.4.3: ICMP echo request, id 8079, seq 1, length 64
    16:02:26.810715 00:25:90:93:40:79 > 40:61:86:32:8f:0e, ethertype IPv4 (0x0800), length 98: 10.0.4.3 > 10.0.1.3: ICMP echo reply, id 8079, seq 1, length 64
    16:02:27.811853 40:61:86:32:8f:0e > 00:25:90:93:40:79, ethertype IPv4 (0x0800), length 98: 10.0.1.3 > 10.0.4.3: ICMP echo request, id 8079, seq 2, length 64
    16:02:27.813130 00:25:90:93:40:79 > 40:61:86:32:8f:0e, ethertype IPv4 (0x0800), length 98: 10.0.4.3 > 10.0.1.3: ICMP echo reply, id 8079, seq 2, length 64
    16:02:28.813255 40:61:86:32:8f:0e > 00:25:90:93:40:79, ethertype IPv4 (0x0800), length 98: 10.0.1.3 > 10.0.4.3: ICMP echo request, id 8079, seq 3, length 64
    16:02:28.814545 00:25:90:93:40:79 > 40:61:86:32:8f:0e, ethertype IPv4 (0x0800), length 98: 10.0.4.3 > 10.0.1.3: ICMP echo reply, id 8079, seq 3, length 64

      ⑦号机eth1抓包如下:

    root@h7:~# tcpdump -i eth1 -enn
    tcpdump: verbose output suppressed, use -v or -vv for full protocol decode
    listening on eth1, link-type EN10MB (Ethernet), capture size 65535 bytes
    16:02:27.222853 40:61:86:32:8f:0e > 00:25:90:93:40:79, ethertype IPv4 (0x0800), length 98: 10.0.1.3 > 10.0.4.3: ICMP echo request, id 8079, seq 1, length 64
    16:02:27.222867 00:25:90:93:40:79 > 40:61:86:32:8f:0e, ethertype IPv4 (0x0800), length 98: 10.0.4.3 > 10.0.1.3: ICMP echo reply, id 8079, seq 1, length 64
    16:02:28.225226 40:61:86:32:8f:0e > 00:25:90:93:40:79, ethertype IPv4 (0x0800), length 98: 10.0.1.3 > 10.0.4.3: ICMP echo request, id 8079, seq 2, length 64
    16:02:28.225237 00:25:90:93:40:79 > 40:61:86:32:8f:0e, ethertype IPv4 (0x0800), length 98: 10.0.4.3 > 10.0.1.3: ICMP echo reply, id 8079, seq 2, length 64
    16:02:29.226638 40:61:86:32:8f:0e > 00:25:90:93:40:79, ethertype IPv4 (0x0800), length 98: 10.0.1.3 > 10.0.4.3: ICMP echo request, id 8079, seq 3, length 64
    16:02:29.226649 00:25:90:93:40:79 > 40:61:86:32:8f:0e, ethertype IPv4 (0x0800), length 98: 10.0.4.3 > 10.0.1.3: ICMP echo reply, id 8079, seq 3, length 64
    16:02:30.228059 40:61:86:32:8f:0e > 00:25:90:93:40:79, ethertype IPv4 (0x0800), length 98: 10.0.1.3 > 10.0.4.3: ICMP echo request, id 8079, seq 4, length 64

      从抓取的包中我们不难看出,①号机在ping ⑦号机时,由于其中路由表配置了通过四号机的eth1(10.0.1.2)地址,这个地址对应的mac①号机已经缓存了,所有没有进行arp广播就直接开始发送ICMP包,并且目的ip是⑦号机,目的MAC是④号机的eth1的,之后在④号机路由中又将目的MAC变成了④号机的eth4的,目的ip不变,回来的过程相仿。

      4、结论

      由于linux路由器默认不转发arp报文到,所有若像”错误的配置“那样配置路由,①号机一直处在询问目的MAC的阶段而无法让路由器④号机转发数据包,所有我们可以通过”正确的配置“那样配置路由让①号机使用④号机eth1的MAC出去,然后再一步一步转发。或者通过”错误的配置“那样配置路由,然后在④号机中使用arp代理,从而让①号机获得⑦号机的MAC,从而从发送arp报文阶段到发送ICMP包阶段。

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  • 原文地址:https://www.cnblogs.com/kekukele/p/4000624.html
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